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Iuliana Panchenko - One of the best experts on this subject based on the ideXlab platform.
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effect of soil treatment on pest infestation and crop disease distribution in black soil fields with short rotation crops
Ukrainian Journal of Ecology, 2020Co-Authors: I Prymak, O M Yakovenko, M V Voytovyk, V M Karaulna, L V Yezerkovska, Oleksiy Panchenko, Yu V Fedoruk, I A Pokotylo, Iuliana PanchenkoAbstract:We have established the influence of four tillage systems on pest distribution and development of diseases in cultivated cereals during three-year research (2017-2019) in the field stationary of the Bila Tserkva National Agrarian University, Ukraine (chernozem Grain Sprouting with five-course rotation). The population of turnip moth in winter wheat, spring barley, and soya was the highest under application of disk tillage, the lowest – under moldboard tillage. The moldboard treatment limited while the beardless and disk treatments stimulate the development of beet webworm in the cereal crops. The number of pests in soya, winter wheat, spring barley, and maize was higher under combined soil treatment compared to moldboard. We recorded no significant difference in pests towards tillage systems in sunflower crops. In soya, winter wheat and maize crops, the number of wireworm was significantly higher in molded than in molded cultivation; the opposite pattern was observed in the sunflower field, while for spring barley these values were at the same level. The distribution and development of root rot in cereal crops was higher in comparison with control, but this difference was insignificant in spring barley. The development of powdery mildew in spring barley crops was almost the same for these tillage options. In cereal crops, septoriosis lesions were almost at the same level in case of moldboard and combined tillage. Significant deterioration of phytosanitary condition at beardless and disk tillage resulted in significant reduction of crop rotation productivity in comparison with control. In the fields with combined and disk treatments, the productivity value was almost the same. Keywords: Soil; Cultivation; Crop rotation; Agriculture lands; Diseases; Plant residues; Productivity References Alekhin, V.T. (2013) Problems of control of cereal flies. Plant protection and quarantine, 8, 26-28 (in Ukrainian). Borovskaya, I. Yu., Luchna I. S., Sokol T.V., Babushkina T.V., Nizka I.M. (2013) Cinderella on cereals. The Ukrainian Farmer, 11, 62-64 (in Ukrainian). Fedorenko, A.V., Tribel, S.O. (2016) Bread beetles. Reproduction outbreaks, malpractice, population restriction system. Quarantine and plant protection, 11, 5-8. (in Ukrainian). Gavrilov, S.O. (2015) Warnings about mini-bodies. Farmer, 5, 20 -23. Khilevsky, V.A. (2013), The bread beetle in the North Caucasus. Plant protection and quarantine, 8, 21-23. (in Russia). Klyuchevich, M.M. (2003) The Role of Anthropogenic Factors in Increasing the Resistance of Winter Wheat to Septoria in Agro-Environmental Polesie. GAU Bulletin, 1, 270-278 (in Ukrainian). Klyuchevich, M.M.(2014) Influence of soil cultivation and fertilizers on the development of mycosis of winter triticale in Polissya of Ukraine. Interagency thematic scientific collection. Protection and quarantine of plants. Kyiv, 60, 144-150 (in Ukrainian). Korniychuk, M.S., Vinichuk, T.S., Parminska, L.M. (2014) Protection of field crops from pests and diseases by technologies of organic production. Proceedings of the National Science Center "Institute of Agriculture of NAAS", 1-2, 98-110. (in Ukrainian). Koval, G.V. (2019) The level of intensity of soil tillage and phytosanitary condition of crops of short rotation crop rotation of Right-Bank Forest Steppe of Ukraine. Thesis of Doctoral Dissertation. Uman (in Ukrainian). Koval, G.V., Yeshenko, V.O., Kaliyevsky, M.V. Naklyoka, Y.I. (2018) Influence of the intensity of basic tillage on the Distrubution of pests in the crops of spring crops of five-field rotation. Taurian Scientific Bulletin, 103, 62-69. (in Ukrainian). Krasilovets, Y.G. (2010) Optimization of phytosanitary safety system of cereals. Handbook of the Ukrainian farmer (in Ukrainian) Markov, I.L. (2010) Rape diseases. Agribusiness today, 15, 4-6 (in Ukrainian). Markov, I.L. (2013). Agrotechnical techniques prevent disease. Agribusiness today, 9, 26-28 (in Ukrainian). Omeluta, V.P. (1986) Accounting for pests and diseases of crops. Kiev: Urozhay (in Ukrainian). Pisarenko, V.M., Pisarenko P.V., Pisarenko V.V. (2008) Agroecology. Poltava (in Ukrainian). Polishchuk, S.V. (2014) Features of manifestation of bacterial diseases on soya crops. Proceedings of the Scientific Research Center of the NAAS Institute of Agriculture Kyiv, 3, 108-115 (in Ukrainian). Primak, I.D., Panchenko, O.B., Panchenko, I.A. (2018) Weediness and productivity of short-rotation agrophytocenoses of Right-Bank Forest Steppe of Ukraine under different systems of basic tillage and fertilization of typical black soil. Taurian Scientific Bulletin, 100(2), 39-50. (in Ukrainian). Prymak, I.D. (2019), Mechanical tillage: history, theory, practice. Vinnytsia: TOV “Tvory” (in Ukrainian). Storchous, I.M. (2013) Wheat treatment. Agribusiness today, 9, 37-40 (in Ukrainian). Timofeev, V.P., Perfilyev, N.V., Vyushina, O.Ya. (2016) Phytosanitary state of spring wheat crops depending on the soil tillage system in the conditions of the Northern Trans-Urals. Agriculture, 2, 18-22 (in Ukrainian). Tribel, S.O., Sigaryova, D.D., Secun, M.P. (2001). Methods of testing and application of pesticides. Kiev: The World (in Ukrainian). Tsylyuryk, O.I., Gorobets, A.G., Gorbatenko, A.I., Chaban, V.I., Gasanova, I.I., Sudak, V.M. (2012) The effectiveness of the shallow tillage system against the background of post-harvest residues and mineral fertilizers in rotation. Bulletin of the Institute of Agriculture of the steppe zone of NAAS of Ukraine, 3, 23-28.
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effect of soil treatment on pest infestation and crop disease distribution in black soil fields with short rotation crops
Ukrainian Journal of Ecology, 2020Co-Authors: I Prymak, O M Yakovenko, M V Voytovyk, V M Karaulna, L V Yezerkovska, Oleksiy Panchenko, Yu V Fedoruk, I A Pokotylo, Iuliana PanchenkoAbstract:We have established the influence of four tillage systems on pest distribution and development of diseases in cultivated cereals during three-year research (2017-2019) in the field stationary of the Bila Tserkva National Agrarian University, Ukraine (chernozem Grain Sprouting with five-course rotation). The population of turnip moth in winter wheat, spring barley, and soya was the highest under application of disk tillage, the lowest – under moldboard tillage. The moldboard treatment limited while the beardless and disk treatments stimulate the development of beet webworm in the cereal crops. The number of pests in soya, winter wheat, spring barley, and maize was higher under combined soil treatment compared to moldboard. We recorded no significant difference in pests towards tillage systems in sunflower crops. In soya, winter wheat and maize crops, the number of wireworm was significantly higher in molded than in molded cultivation; the opposite pattern was observed in the sunflower field, while for spring barley these values were at the same level. The distribution and development of root rot in cereal crops was higher in comparison with control, but this difference was insignificant in spring barley. The development of powdery mildew in spring barley crops was almost the same for these tillage options. In cereal crops, septoriosis lesions were almost at the same level in case of moldboard and combined tillage. Significant deterioration of phytosanitary condition at beardless and disk tillage resulted in significant reduction of crop rotation productivity in comparison with control. In the fields with combined and disk treatments, the productivity value was almost the same. Keywords: Soil; Cultivation; Crop rotation; Agriculture lands; Diseases; Plant residues; Productivity References Alekhin, V.T. (2013) Problems of control of cereal flies. Plant protection and quarantine, 8, 26-28 (in Ukrainian). Borovskaya, I. Yu., Luchna I. S., Sokol T.V., Babushkina T.V., Nizka I.M. (2013) Cinderella on cereals. The Ukrainian Farmer, 11, 62-64 (in Ukrainian). Fedorenko, A.V., Tribel, S.O. (2016) Bread beetles. Reproduction outbreaks, malpractice, population restriction system. Quarantine and plant protection, 11, 5-8. (in Ukrainian). Gavrilov, S.O. (2015) Warnings about mini-bodies. Farmer, 5, 20 -23. Khilevsky, V.A. (2013), The bread beetle in the North Caucasus. Plant protection and quarantine, 8, 21-23. (in Russia). Klyuchevich, M.M. (2003) The Role of Anthropogenic Factors in Increasing the Resistance of Winter Wheat to Septoria in Agro-Environmental Polesie. GAU Bulletin, 1, 270-278 (in Ukrainian). Klyuchevich, M.M.(2014) Influence of soil cultivation and fertilizers on the development of mycosis of winter triticale in Polissya of Ukraine. Interagency thematic scientific collection. Protection and quarantine of plants. Kyiv, 60, 144-150 (in Ukrainian). Korniychuk, M.S., Vinichuk, T.S., Parminska, L.M. (2014) Protection of field crops from pests and diseases by technologies of organic production. Proceedings of the National Science Center "Institute of Agriculture of NAAS", 1-2, 98-110. (in Ukrainian). Koval, G.V. (2019) The level of intensity of soil tillage and phytosanitary condition of crops of short rotation crop rotation of Right-Bank Forest Steppe of Ukraine. Thesis of Doctoral Dissertation. Uman (in Ukrainian). Koval, G.V., Yeshenko, V.O., Kaliyevsky, M.V. Naklyoka, Y.I. (2018) Influence of the intensity of basic tillage on the Distrubution of pests in the crops of spring crops of five-field rotation. Taurian Scientific Bulletin, 103, 62-69. (in Ukrainian). Krasilovets, Y.G. (2010) Optimization of phytosanitary safety system of cereals. Handbook of the Ukrainian farmer (in Ukrainian) Markov, I.L. (2010) Rape diseases. Agribusiness today, 15, 4-6 (in Ukrainian). Markov, I.L. (2013). Agrotechnical techniques prevent disease. Agribusiness today, 9, 26-28 (in Ukrainian). Omeluta, V.P. (1986) Accounting for pests and diseases of crops. Kiev: Urozhay (in Ukrainian). Pisarenko, V.M., Pisarenko P.V., Pisarenko V.V. (2008) Agroecology. Poltava (in Ukrainian). Polishchuk, S.V. (2014) Features of manifestation of bacterial diseases on soya crops. Proceedings of the Scientific Research Center of the NAAS Institute of Agriculture Kyiv, 3, 108-115 (in Ukrainian). Primak, I.D., Panchenko, O.B., Panchenko, I.A. (2018) Weediness and productivity of short-rotation agrophytocenoses of Right-Bank Forest Steppe of Ukraine under different systems of basic tillage and fertilization of typical black soil. Taurian Scientific Bulletin, 100(2), 39-50. (in Ukrainian). Prymak, I.D. (2019), Mechanical tillage: history, theory, practice. Vinnytsia: TOV “Tvory” (in Ukrainian). Storchous, I.M. (2013) Wheat treatment. Agribusiness today, 9, 37-40 (in Ukrainian). Timofeev, V.P., Perfilyev, N.V., Vyushina, O.Ya. (2016) Phytosanitary state of spring wheat crops depending on the soil tillage system in the conditions of the Northern Trans-Urals. Agriculture, 2, 18-22 (in Ukrainian). Tribel, S.O., Sigaryova, D.D., Secun, M.P. (2001). Methods of testing and application of pesticides. Kiev: The World (in Ukrainian). Tsylyuryk, O.I., Gorobets, A.G., Gorbatenko, A.I., Chaban, V.I., Gasanova, I.I., Sudak, V.M. (2012) The effectiveness of the shallow tillage system against the background of post-harvest residues and mineral fertilizers in rotation. Bulletin of the Institute of Agriculture of the steppe zone of NAAS of Ukraine, 3, 23-28.
I Prymak - One of the best experts on this subject based on the ideXlab platform.
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effect of soil treatment on pest infestation and crop disease distribution in black soil fields with short rotation crops
Ukrainian Journal of Ecology, 2020Co-Authors: I Prymak, O M Yakovenko, M V Voytovyk, V M Karaulna, L V Yezerkovska, Oleksiy Panchenko, Yu V Fedoruk, I A Pokotylo, Iuliana PanchenkoAbstract:We have established the influence of four tillage systems on pest distribution and development of diseases in cultivated cereals during three-year research (2017-2019) in the field stationary of the Bila Tserkva National Agrarian University, Ukraine (chernozem Grain Sprouting with five-course rotation). The population of turnip moth in winter wheat, spring barley, and soya was the highest under application of disk tillage, the lowest – under moldboard tillage. The moldboard treatment limited while the beardless and disk treatments stimulate the development of beet webworm in the cereal crops. The number of pests in soya, winter wheat, spring barley, and maize was higher under combined soil treatment compared to moldboard. We recorded no significant difference in pests towards tillage systems in sunflower crops. In soya, winter wheat and maize crops, the number of wireworm was significantly higher in molded than in molded cultivation; the opposite pattern was observed in the sunflower field, while for spring barley these values were at the same level. The distribution and development of root rot in cereal crops was higher in comparison with control, but this difference was insignificant in spring barley. The development of powdery mildew in spring barley crops was almost the same for these tillage options. In cereal crops, septoriosis lesions were almost at the same level in case of moldboard and combined tillage. Significant deterioration of phytosanitary condition at beardless and disk tillage resulted in significant reduction of crop rotation productivity in comparison with control. In the fields with combined and disk treatments, the productivity value was almost the same. Keywords: Soil; Cultivation; Crop rotation; Agriculture lands; Diseases; Plant residues; Productivity References Alekhin, V.T. (2013) Problems of control of cereal flies. Plant protection and quarantine, 8, 26-28 (in Ukrainian). Borovskaya, I. Yu., Luchna I. S., Sokol T.V., Babushkina T.V., Nizka I.M. (2013) Cinderella on cereals. The Ukrainian Farmer, 11, 62-64 (in Ukrainian). Fedorenko, A.V., Tribel, S.O. (2016) Bread beetles. Reproduction outbreaks, malpractice, population restriction system. Quarantine and plant protection, 11, 5-8. (in Ukrainian). Gavrilov, S.O. (2015) Warnings about mini-bodies. Farmer, 5, 20 -23. Khilevsky, V.A. (2013), The bread beetle in the North Caucasus. Plant protection and quarantine, 8, 21-23. (in Russia). Klyuchevich, M.M. (2003) The Role of Anthropogenic Factors in Increasing the Resistance of Winter Wheat to Septoria in Agro-Environmental Polesie. GAU Bulletin, 1, 270-278 (in Ukrainian). Klyuchevich, M.M.(2014) Influence of soil cultivation and fertilizers on the development of mycosis of winter triticale in Polissya of Ukraine. Interagency thematic scientific collection. Protection and quarantine of plants. Kyiv, 60, 144-150 (in Ukrainian). Korniychuk, M.S., Vinichuk, T.S., Parminska, L.M. (2014) Protection of field crops from pests and diseases by technologies of organic production. Proceedings of the National Science Center "Institute of Agriculture of NAAS", 1-2, 98-110. (in Ukrainian). Koval, G.V. (2019) The level of intensity of soil tillage and phytosanitary condition of crops of short rotation crop rotation of Right-Bank Forest Steppe of Ukraine. Thesis of Doctoral Dissertation. Uman (in Ukrainian). Koval, G.V., Yeshenko, V.O., Kaliyevsky, M.V. Naklyoka, Y.I. (2018) Influence of the intensity of basic tillage on the Distrubution of pests in the crops of spring crops of five-field rotation. Taurian Scientific Bulletin, 103, 62-69. (in Ukrainian). Krasilovets, Y.G. (2010) Optimization of phytosanitary safety system of cereals. Handbook of the Ukrainian farmer (in Ukrainian) Markov, I.L. (2010) Rape diseases. Agribusiness today, 15, 4-6 (in Ukrainian). Markov, I.L. (2013). Agrotechnical techniques prevent disease. Agribusiness today, 9, 26-28 (in Ukrainian). Omeluta, V.P. (1986) Accounting for pests and diseases of crops. Kiev: Urozhay (in Ukrainian). Pisarenko, V.M., Pisarenko P.V., Pisarenko V.V. (2008) Agroecology. Poltava (in Ukrainian). Polishchuk, S.V. (2014) Features of manifestation of bacterial diseases on soya crops. Proceedings of the Scientific Research Center of the NAAS Institute of Agriculture Kyiv, 3, 108-115 (in Ukrainian). Primak, I.D., Panchenko, O.B., Panchenko, I.A. (2018) Weediness and productivity of short-rotation agrophytocenoses of Right-Bank Forest Steppe of Ukraine under different systems of basic tillage and fertilization of typical black soil. Taurian Scientific Bulletin, 100(2), 39-50. (in Ukrainian). Prymak, I.D. (2019), Mechanical tillage: history, theory, practice. Vinnytsia: TOV “Tvory” (in Ukrainian). Storchous, I.M. (2013) Wheat treatment. Agribusiness today, 9, 37-40 (in Ukrainian). Timofeev, V.P., Perfilyev, N.V., Vyushina, O.Ya. (2016) Phytosanitary state of spring wheat crops depending on the soil tillage system in the conditions of the Northern Trans-Urals. Agriculture, 2, 18-22 (in Ukrainian). Tribel, S.O., Sigaryova, D.D., Secun, M.P. (2001). Methods of testing and application of pesticides. Kiev: The World (in Ukrainian). Tsylyuryk, O.I., Gorobets, A.G., Gorbatenko, A.I., Chaban, V.I., Gasanova, I.I., Sudak, V.M. (2012) The effectiveness of the shallow tillage system against the background of post-harvest residues and mineral fertilizers in rotation. Bulletin of the Institute of Agriculture of the steppe zone of NAAS of Ukraine, 3, 23-28.
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effect of soil treatment on pest infestation and crop disease distribution in black soil fields with short rotation crops
Ukrainian Journal of Ecology, 2020Co-Authors: I Prymak, O M Yakovenko, M V Voytovyk, V M Karaulna, L V Yezerkovska, Oleksiy Panchenko, Yu V Fedoruk, I A Pokotylo, Iuliana PanchenkoAbstract:We have established the influence of four tillage systems on pest distribution and development of diseases in cultivated cereals during three-year research (2017-2019) in the field stationary of the Bila Tserkva National Agrarian University, Ukraine (chernozem Grain Sprouting with five-course rotation). The population of turnip moth in winter wheat, spring barley, and soya was the highest under application of disk tillage, the lowest – under moldboard tillage. The moldboard treatment limited while the beardless and disk treatments stimulate the development of beet webworm in the cereal crops. The number of pests in soya, winter wheat, spring barley, and maize was higher under combined soil treatment compared to moldboard. We recorded no significant difference in pests towards tillage systems in sunflower crops. In soya, winter wheat and maize crops, the number of wireworm was significantly higher in molded than in molded cultivation; the opposite pattern was observed in the sunflower field, while for spring barley these values were at the same level. The distribution and development of root rot in cereal crops was higher in comparison with control, but this difference was insignificant in spring barley. The development of powdery mildew in spring barley crops was almost the same for these tillage options. In cereal crops, septoriosis lesions were almost at the same level in case of moldboard and combined tillage. Significant deterioration of phytosanitary condition at beardless and disk tillage resulted in significant reduction of crop rotation productivity in comparison with control. In the fields with combined and disk treatments, the productivity value was almost the same. Keywords: Soil; Cultivation; Crop rotation; Agriculture lands; Diseases; Plant residues; Productivity References Alekhin, V.T. (2013) Problems of control of cereal flies. Plant protection and quarantine, 8, 26-28 (in Ukrainian). Borovskaya, I. Yu., Luchna I. S., Sokol T.V., Babushkina T.V., Nizka I.M. (2013) Cinderella on cereals. The Ukrainian Farmer, 11, 62-64 (in Ukrainian). Fedorenko, A.V., Tribel, S.O. (2016) Bread beetles. Reproduction outbreaks, malpractice, population restriction system. Quarantine and plant protection, 11, 5-8. (in Ukrainian). Gavrilov, S.O. (2015) Warnings about mini-bodies. Farmer, 5, 20 -23. Khilevsky, V.A. (2013), The bread beetle in the North Caucasus. Plant protection and quarantine, 8, 21-23. (in Russia). Klyuchevich, M.M. (2003) The Role of Anthropogenic Factors in Increasing the Resistance of Winter Wheat to Septoria in Agro-Environmental Polesie. GAU Bulletin, 1, 270-278 (in Ukrainian). Klyuchevich, M.M.(2014) Influence of soil cultivation and fertilizers on the development of mycosis of winter triticale in Polissya of Ukraine. Interagency thematic scientific collection. Protection and quarantine of plants. Kyiv, 60, 144-150 (in Ukrainian). Korniychuk, M.S., Vinichuk, T.S., Parminska, L.M. (2014) Protection of field crops from pests and diseases by technologies of organic production. Proceedings of the National Science Center "Institute of Agriculture of NAAS", 1-2, 98-110. (in Ukrainian). Koval, G.V. (2019) The level of intensity of soil tillage and phytosanitary condition of crops of short rotation crop rotation of Right-Bank Forest Steppe of Ukraine. Thesis of Doctoral Dissertation. Uman (in Ukrainian). Koval, G.V., Yeshenko, V.O., Kaliyevsky, M.V. Naklyoka, Y.I. (2018) Influence of the intensity of basic tillage on the Distrubution of pests in the crops of spring crops of five-field rotation. Taurian Scientific Bulletin, 103, 62-69. (in Ukrainian). Krasilovets, Y.G. (2010) Optimization of phytosanitary safety system of cereals. Handbook of the Ukrainian farmer (in Ukrainian) Markov, I.L. (2010) Rape diseases. Agribusiness today, 15, 4-6 (in Ukrainian). Markov, I.L. (2013). Agrotechnical techniques prevent disease. Agribusiness today, 9, 26-28 (in Ukrainian). Omeluta, V.P. (1986) Accounting for pests and diseases of crops. Kiev: Urozhay (in Ukrainian). Pisarenko, V.M., Pisarenko P.V., Pisarenko V.V. (2008) Agroecology. Poltava (in Ukrainian). Polishchuk, S.V. (2014) Features of manifestation of bacterial diseases on soya crops. Proceedings of the Scientific Research Center of the NAAS Institute of Agriculture Kyiv, 3, 108-115 (in Ukrainian). Primak, I.D., Panchenko, O.B., Panchenko, I.A. (2018) Weediness and productivity of short-rotation agrophytocenoses of Right-Bank Forest Steppe of Ukraine under different systems of basic tillage and fertilization of typical black soil. Taurian Scientific Bulletin, 100(2), 39-50. (in Ukrainian). Prymak, I.D. (2019), Mechanical tillage: history, theory, practice. Vinnytsia: TOV “Tvory” (in Ukrainian). Storchous, I.M. (2013) Wheat treatment. Agribusiness today, 9, 37-40 (in Ukrainian). Timofeev, V.P., Perfilyev, N.V., Vyushina, O.Ya. (2016) Phytosanitary state of spring wheat crops depending on the soil tillage system in the conditions of the Northern Trans-Urals. Agriculture, 2, 18-22 (in Ukrainian). Tribel, S.O., Sigaryova, D.D., Secun, M.P. (2001). Methods of testing and application of pesticides. Kiev: The World (in Ukrainian). Tsylyuryk, O.I., Gorobets, A.G., Gorbatenko, A.I., Chaban, V.I., Gasanova, I.I., Sudak, V.M. (2012) The effectiveness of the shallow tillage system against the background of post-harvest residues and mineral fertilizers in rotation. Bulletin of the Institute of Agriculture of the steppe zone of NAAS of Ukraine, 3, 23-28.
M V Voytovyk - One of the best experts on this subject based on the ideXlab platform.
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effect of soil treatment on pest infestation and crop disease distribution in black soil fields with short rotation crops
Ukrainian Journal of Ecology, 2020Co-Authors: I Prymak, O M Yakovenko, M V Voytovyk, V M Karaulna, L V Yezerkovska, Oleksiy Panchenko, Yu V Fedoruk, I A Pokotylo, Iuliana PanchenkoAbstract:We have established the influence of four tillage systems on pest distribution and development of diseases in cultivated cereals during three-year research (2017-2019) in the field stationary of the Bila Tserkva National Agrarian University, Ukraine (chernozem Grain Sprouting with five-course rotation). The population of turnip moth in winter wheat, spring barley, and soya was the highest under application of disk tillage, the lowest – under moldboard tillage. The moldboard treatment limited while the beardless and disk treatments stimulate the development of beet webworm in the cereal crops. The number of pests in soya, winter wheat, spring barley, and maize was higher under combined soil treatment compared to moldboard. We recorded no significant difference in pests towards tillage systems in sunflower crops. In soya, winter wheat and maize crops, the number of wireworm was significantly higher in molded than in molded cultivation; the opposite pattern was observed in the sunflower field, while for spring barley these values were at the same level. The distribution and development of root rot in cereal crops was higher in comparison with control, but this difference was insignificant in spring barley. The development of powdery mildew in spring barley crops was almost the same for these tillage options. In cereal crops, septoriosis lesions were almost at the same level in case of moldboard and combined tillage. Significant deterioration of phytosanitary condition at beardless and disk tillage resulted in significant reduction of crop rotation productivity in comparison with control. In the fields with combined and disk treatments, the productivity value was almost the same. Keywords: Soil; Cultivation; Crop rotation; Agriculture lands; Diseases; Plant residues; Productivity References Alekhin, V.T. (2013) Problems of control of cereal flies. Plant protection and quarantine, 8, 26-28 (in Ukrainian). Borovskaya, I. Yu., Luchna I. S., Sokol T.V., Babushkina T.V., Nizka I.M. (2013) Cinderella on cereals. The Ukrainian Farmer, 11, 62-64 (in Ukrainian). Fedorenko, A.V., Tribel, S.O. (2016) Bread beetles. Reproduction outbreaks, malpractice, population restriction system. Quarantine and plant protection, 11, 5-8. (in Ukrainian). Gavrilov, S.O. (2015) Warnings about mini-bodies. Farmer, 5, 20 -23. Khilevsky, V.A. (2013), The bread beetle in the North Caucasus. Plant protection and quarantine, 8, 21-23. (in Russia). Klyuchevich, M.M. (2003) The Role of Anthropogenic Factors in Increasing the Resistance of Winter Wheat to Septoria in Agro-Environmental Polesie. GAU Bulletin, 1, 270-278 (in Ukrainian). Klyuchevich, M.M.(2014) Influence of soil cultivation and fertilizers on the development of mycosis of winter triticale in Polissya of Ukraine. Interagency thematic scientific collection. Protection and quarantine of plants. Kyiv, 60, 144-150 (in Ukrainian). Korniychuk, M.S., Vinichuk, T.S., Parminska, L.M. (2014) Protection of field crops from pests and diseases by technologies of organic production. Proceedings of the National Science Center "Institute of Agriculture of NAAS", 1-2, 98-110. (in Ukrainian). Koval, G.V. (2019) The level of intensity of soil tillage and phytosanitary condition of crops of short rotation crop rotation of Right-Bank Forest Steppe of Ukraine. Thesis of Doctoral Dissertation. Uman (in Ukrainian). Koval, G.V., Yeshenko, V.O., Kaliyevsky, M.V. Naklyoka, Y.I. (2018) Influence of the intensity of basic tillage on the Distrubution of pests in the crops of spring crops of five-field rotation. Taurian Scientific Bulletin, 103, 62-69. (in Ukrainian). Krasilovets, Y.G. (2010) Optimization of phytosanitary safety system of cereals. Handbook of the Ukrainian farmer (in Ukrainian) Markov, I.L. (2010) Rape diseases. Agribusiness today, 15, 4-6 (in Ukrainian). Markov, I.L. (2013). Agrotechnical techniques prevent disease. Agribusiness today, 9, 26-28 (in Ukrainian). Omeluta, V.P. (1986) Accounting for pests and diseases of crops. Kiev: Urozhay (in Ukrainian). Pisarenko, V.M., Pisarenko P.V., Pisarenko V.V. (2008) Agroecology. Poltava (in Ukrainian). Polishchuk, S.V. (2014) Features of manifestation of bacterial diseases on soya crops. Proceedings of the Scientific Research Center of the NAAS Institute of Agriculture Kyiv, 3, 108-115 (in Ukrainian). Primak, I.D., Panchenko, O.B., Panchenko, I.A. (2018) Weediness and productivity of short-rotation agrophytocenoses of Right-Bank Forest Steppe of Ukraine under different systems of basic tillage and fertilization of typical black soil. Taurian Scientific Bulletin, 100(2), 39-50. (in Ukrainian). Prymak, I.D. (2019), Mechanical tillage: history, theory, practice. Vinnytsia: TOV “Tvory” (in Ukrainian). Storchous, I.M. (2013) Wheat treatment. Agribusiness today, 9, 37-40 (in Ukrainian). Timofeev, V.P., Perfilyev, N.V., Vyushina, O.Ya. (2016) Phytosanitary state of spring wheat crops depending on the soil tillage system in the conditions of the Northern Trans-Urals. Agriculture, 2, 18-22 (in Ukrainian). Tribel, S.O., Sigaryova, D.D., Secun, M.P. (2001). Methods of testing and application of pesticides. Kiev: The World (in Ukrainian). Tsylyuryk, O.I., Gorobets, A.G., Gorbatenko, A.I., Chaban, V.I., Gasanova, I.I., Sudak, V.M. (2012) The effectiveness of the shallow tillage system against the background of post-harvest residues and mineral fertilizers in rotation. Bulletin of the Institute of Agriculture of the steppe zone of NAAS of Ukraine, 3, 23-28.
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effect of soil treatment on pest infestation and crop disease distribution in black soil fields with short rotation crops
Ukrainian Journal of Ecology, 2020Co-Authors: I Prymak, O M Yakovenko, M V Voytovyk, V M Karaulna, L V Yezerkovska, Oleksiy Panchenko, Yu V Fedoruk, I A Pokotylo, Iuliana PanchenkoAbstract:We have established the influence of four tillage systems on pest distribution and development of diseases in cultivated cereals during three-year research (2017-2019) in the field stationary of the Bila Tserkva National Agrarian University, Ukraine (chernozem Grain Sprouting with five-course rotation). The population of turnip moth in winter wheat, spring barley, and soya was the highest under application of disk tillage, the lowest – under moldboard tillage. The moldboard treatment limited while the beardless and disk treatments stimulate the development of beet webworm in the cereal crops. The number of pests in soya, winter wheat, spring barley, and maize was higher under combined soil treatment compared to moldboard. We recorded no significant difference in pests towards tillage systems in sunflower crops. In soya, winter wheat and maize crops, the number of wireworm was significantly higher in molded than in molded cultivation; the opposite pattern was observed in the sunflower field, while for spring barley these values were at the same level. The distribution and development of root rot in cereal crops was higher in comparison with control, but this difference was insignificant in spring barley. The development of powdery mildew in spring barley crops was almost the same for these tillage options. In cereal crops, septoriosis lesions were almost at the same level in case of moldboard and combined tillage. Significant deterioration of phytosanitary condition at beardless and disk tillage resulted in significant reduction of crop rotation productivity in comparison with control. In the fields with combined and disk treatments, the productivity value was almost the same. Keywords: Soil; Cultivation; Crop rotation; Agriculture lands; Diseases; Plant residues; Productivity References Alekhin, V.T. (2013) Problems of control of cereal flies. Plant protection and quarantine, 8, 26-28 (in Ukrainian). Borovskaya, I. Yu., Luchna I. S., Sokol T.V., Babushkina T.V., Nizka I.M. (2013) Cinderella on cereals. The Ukrainian Farmer, 11, 62-64 (in Ukrainian). Fedorenko, A.V., Tribel, S.O. (2016) Bread beetles. Reproduction outbreaks, malpractice, population restriction system. Quarantine and plant protection, 11, 5-8. (in Ukrainian). Gavrilov, S.O. (2015) Warnings about mini-bodies. Farmer, 5, 20 -23. Khilevsky, V.A. (2013), The bread beetle in the North Caucasus. Plant protection and quarantine, 8, 21-23. (in Russia). Klyuchevich, M.M. (2003) The Role of Anthropogenic Factors in Increasing the Resistance of Winter Wheat to Septoria in Agro-Environmental Polesie. GAU Bulletin, 1, 270-278 (in Ukrainian). Klyuchevich, M.M.(2014) Influence of soil cultivation and fertilizers on the development of mycosis of winter triticale in Polissya of Ukraine. Interagency thematic scientific collection. Protection and quarantine of plants. Kyiv, 60, 144-150 (in Ukrainian). Korniychuk, M.S., Vinichuk, T.S., Parminska, L.M. (2014) Protection of field crops from pests and diseases by technologies of organic production. Proceedings of the National Science Center "Institute of Agriculture of NAAS", 1-2, 98-110. (in Ukrainian). Koval, G.V. (2019) The level of intensity of soil tillage and phytosanitary condition of crops of short rotation crop rotation of Right-Bank Forest Steppe of Ukraine. Thesis of Doctoral Dissertation. Uman (in Ukrainian). Koval, G.V., Yeshenko, V.O., Kaliyevsky, M.V. Naklyoka, Y.I. (2018) Influence of the intensity of basic tillage on the Distrubution of pests in the crops of spring crops of five-field rotation. Taurian Scientific Bulletin, 103, 62-69. (in Ukrainian). Krasilovets, Y.G. (2010) Optimization of phytosanitary safety system of cereals. Handbook of the Ukrainian farmer (in Ukrainian) Markov, I.L. (2010) Rape diseases. Agribusiness today, 15, 4-6 (in Ukrainian). Markov, I.L. (2013). Agrotechnical techniques prevent disease. Agribusiness today, 9, 26-28 (in Ukrainian). Omeluta, V.P. (1986) Accounting for pests and diseases of crops. Kiev: Urozhay (in Ukrainian). Pisarenko, V.M., Pisarenko P.V., Pisarenko V.V. (2008) Agroecology. Poltava (in Ukrainian). Polishchuk, S.V. (2014) Features of manifestation of bacterial diseases on soya crops. Proceedings of the Scientific Research Center of the NAAS Institute of Agriculture Kyiv, 3, 108-115 (in Ukrainian). Primak, I.D., Panchenko, O.B., Panchenko, I.A. (2018) Weediness and productivity of short-rotation agrophytocenoses of Right-Bank Forest Steppe of Ukraine under different systems of basic tillage and fertilization of typical black soil. Taurian Scientific Bulletin, 100(2), 39-50. (in Ukrainian). Prymak, I.D. (2019), Mechanical tillage: history, theory, practice. Vinnytsia: TOV “Tvory” (in Ukrainian). Storchous, I.M. (2013) Wheat treatment. Agribusiness today, 9, 37-40 (in Ukrainian). Timofeev, V.P., Perfilyev, N.V., Vyushina, O.Ya. (2016) Phytosanitary state of spring wheat crops depending on the soil tillage system in the conditions of the Northern Trans-Urals. Agriculture, 2, 18-22 (in Ukrainian). Tribel, S.O., Sigaryova, D.D., Secun, M.P. (2001). Methods of testing and application of pesticides. Kiev: The World (in Ukrainian). Tsylyuryk, O.I., Gorobets, A.G., Gorbatenko, A.I., Chaban, V.I., Gasanova, I.I., Sudak, V.M. (2012) The effectiveness of the shallow tillage system against the background of post-harvest residues and mineral fertilizers in rotation. Bulletin of the Institute of Agriculture of the steppe zone of NAAS of Ukraine, 3, 23-28.
V M Karaulna - One of the best experts on this subject based on the ideXlab platform.
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effect of soil treatment on pest infestation and crop disease distribution in black soil fields with short rotation crops
Ukrainian Journal of Ecology, 2020Co-Authors: I Prymak, O M Yakovenko, M V Voytovyk, V M Karaulna, L V Yezerkovska, Oleksiy Panchenko, Yu V Fedoruk, I A Pokotylo, Iuliana PanchenkoAbstract:We have established the influence of four tillage systems on pest distribution and development of diseases in cultivated cereals during three-year research (2017-2019) in the field stationary of the Bila Tserkva National Agrarian University, Ukraine (chernozem Grain Sprouting with five-course rotation). The population of turnip moth in winter wheat, spring barley, and soya was the highest under application of disk tillage, the lowest – under moldboard tillage. The moldboard treatment limited while the beardless and disk treatments stimulate the development of beet webworm in the cereal crops. The number of pests in soya, winter wheat, spring barley, and maize was higher under combined soil treatment compared to moldboard. We recorded no significant difference in pests towards tillage systems in sunflower crops. In soya, winter wheat and maize crops, the number of wireworm was significantly higher in molded than in molded cultivation; the opposite pattern was observed in the sunflower field, while for spring barley these values were at the same level. The distribution and development of root rot in cereal crops was higher in comparison with control, but this difference was insignificant in spring barley. The development of powdery mildew in spring barley crops was almost the same for these tillage options. In cereal crops, septoriosis lesions were almost at the same level in case of moldboard and combined tillage. Significant deterioration of phytosanitary condition at beardless and disk tillage resulted in significant reduction of crop rotation productivity in comparison with control. In the fields with combined and disk treatments, the productivity value was almost the same. Keywords: Soil; Cultivation; Crop rotation; Agriculture lands; Diseases; Plant residues; Productivity References Alekhin, V.T. (2013) Problems of control of cereal flies. Plant protection and quarantine, 8, 26-28 (in Ukrainian). Borovskaya, I. Yu., Luchna I. S., Sokol T.V., Babushkina T.V., Nizka I.M. (2013) Cinderella on cereals. The Ukrainian Farmer, 11, 62-64 (in Ukrainian). Fedorenko, A.V., Tribel, S.O. (2016) Bread beetles. Reproduction outbreaks, malpractice, population restriction system. Quarantine and plant protection, 11, 5-8. (in Ukrainian). Gavrilov, S.O. (2015) Warnings about mini-bodies. Farmer, 5, 20 -23. Khilevsky, V.A. (2013), The bread beetle in the North Caucasus. Plant protection and quarantine, 8, 21-23. (in Russia). Klyuchevich, M.M. (2003) The Role of Anthropogenic Factors in Increasing the Resistance of Winter Wheat to Septoria in Agro-Environmental Polesie. GAU Bulletin, 1, 270-278 (in Ukrainian). Klyuchevich, M.M.(2014) Influence of soil cultivation and fertilizers on the development of mycosis of winter triticale in Polissya of Ukraine. Interagency thematic scientific collection. Protection and quarantine of plants. Kyiv, 60, 144-150 (in Ukrainian). Korniychuk, M.S., Vinichuk, T.S., Parminska, L.M. (2014) Protection of field crops from pests and diseases by technologies of organic production. Proceedings of the National Science Center "Institute of Agriculture of NAAS", 1-2, 98-110. (in Ukrainian). Koval, G.V. (2019) The level of intensity of soil tillage and phytosanitary condition of crops of short rotation crop rotation of Right-Bank Forest Steppe of Ukraine. Thesis of Doctoral Dissertation. Uman (in Ukrainian). Koval, G.V., Yeshenko, V.O., Kaliyevsky, M.V. Naklyoka, Y.I. (2018) Influence of the intensity of basic tillage on the Distrubution of pests in the crops of spring crops of five-field rotation. Taurian Scientific Bulletin, 103, 62-69. (in Ukrainian). Krasilovets, Y.G. (2010) Optimization of phytosanitary safety system of cereals. Handbook of the Ukrainian farmer (in Ukrainian) Markov, I.L. (2010) Rape diseases. Agribusiness today, 15, 4-6 (in Ukrainian). Markov, I.L. (2013). Agrotechnical techniques prevent disease. Agribusiness today, 9, 26-28 (in Ukrainian). Omeluta, V.P. (1986) Accounting for pests and diseases of crops. Kiev: Urozhay (in Ukrainian). Pisarenko, V.M., Pisarenko P.V., Pisarenko V.V. (2008) Agroecology. Poltava (in Ukrainian). Polishchuk, S.V. (2014) Features of manifestation of bacterial diseases on soya crops. Proceedings of the Scientific Research Center of the NAAS Institute of Agriculture Kyiv, 3, 108-115 (in Ukrainian). Primak, I.D., Panchenko, O.B., Panchenko, I.A. (2018) Weediness and productivity of short-rotation agrophytocenoses of Right-Bank Forest Steppe of Ukraine under different systems of basic tillage and fertilization of typical black soil. Taurian Scientific Bulletin, 100(2), 39-50. (in Ukrainian). Prymak, I.D. (2019), Mechanical tillage: history, theory, practice. Vinnytsia: TOV “Tvory” (in Ukrainian). Storchous, I.M. (2013) Wheat treatment. Agribusiness today, 9, 37-40 (in Ukrainian). Timofeev, V.P., Perfilyev, N.V., Vyushina, O.Ya. (2016) Phytosanitary state of spring wheat crops depending on the soil tillage system in the conditions of the Northern Trans-Urals. Agriculture, 2, 18-22 (in Ukrainian). Tribel, S.O., Sigaryova, D.D., Secun, M.P. (2001). Methods of testing and application of pesticides. Kiev: The World (in Ukrainian). Tsylyuryk, O.I., Gorobets, A.G., Gorbatenko, A.I., Chaban, V.I., Gasanova, I.I., Sudak, V.M. (2012) The effectiveness of the shallow tillage system against the background of post-harvest residues and mineral fertilizers in rotation. Bulletin of the Institute of Agriculture of the steppe zone of NAAS of Ukraine, 3, 23-28.
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effect of soil treatment on pest infestation and crop disease distribution in black soil fields with short rotation crops
Ukrainian Journal of Ecology, 2020Co-Authors: I Prymak, O M Yakovenko, M V Voytovyk, V M Karaulna, L V Yezerkovska, Oleksiy Panchenko, Yu V Fedoruk, I A Pokotylo, Iuliana PanchenkoAbstract:We have established the influence of four tillage systems on pest distribution and development of diseases in cultivated cereals during three-year research (2017-2019) in the field stationary of the Bila Tserkva National Agrarian University, Ukraine (chernozem Grain Sprouting with five-course rotation). The population of turnip moth in winter wheat, spring barley, and soya was the highest under application of disk tillage, the lowest – under moldboard tillage. The moldboard treatment limited while the beardless and disk treatments stimulate the development of beet webworm in the cereal crops. The number of pests in soya, winter wheat, spring barley, and maize was higher under combined soil treatment compared to moldboard. We recorded no significant difference in pests towards tillage systems in sunflower crops. In soya, winter wheat and maize crops, the number of wireworm was significantly higher in molded than in molded cultivation; the opposite pattern was observed in the sunflower field, while for spring barley these values were at the same level. The distribution and development of root rot in cereal crops was higher in comparison with control, but this difference was insignificant in spring barley. The development of powdery mildew in spring barley crops was almost the same for these tillage options. In cereal crops, septoriosis lesions were almost at the same level in case of moldboard and combined tillage. Significant deterioration of phytosanitary condition at beardless and disk tillage resulted in significant reduction of crop rotation productivity in comparison with control. In the fields with combined and disk treatments, the productivity value was almost the same. Keywords: Soil; Cultivation; Crop rotation; Agriculture lands; Diseases; Plant residues; Productivity References Alekhin, V.T. (2013) Problems of control of cereal flies. Plant protection and quarantine, 8, 26-28 (in Ukrainian). Borovskaya, I. Yu., Luchna I. S., Sokol T.V., Babushkina T.V., Nizka I.M. (2013) Cinderella on cereals. The Ukrainian Farmer, 11, 62-64 (in Ukrainian). Fedorenko, A.V., Tribel, S.O. (2016) Bread beetles. Reproduction outbreaks, malpractice, population restriction system. Quarantine and plant protection, 11, 5-8. (in Ukrainian). Gavrilov, S.O. (2015) Warnings about mini-bodies. Farmer, 5, 20 -23. Khilevsky, V.A. (2013), The bread beetle in the North Caucasus. Plant protection and quarantine, 8, 21-23. (in Russia). Klyuchevich, M.M. (2003) The Role of Anthropogenic Factors in Increasing the Resistance of Winter Wheat to Septoria in Agro-Environmental Polesie. GAU Bulletin, 1, 270-278 (in Ukrainian). Klyuchevich, M.M.(2014) Influence of soil cultivation and fertilizers on the development of mycosis of winter triticale in Polissya of Ukraine. Interagency thematic scientific collection. Protection and quarantine of plants. Kyiv, 60, 144-150 (in Ukrainian). Korniychuk, M.S., Vinichuk, T.S., Parminska, L.M. (2014) Protection of field crops from pests and diseases by technologies of organic production. Proceedings of the National Science Center "Institute of Agriculture of NAAS", 1-2, 98-110. (in Ukrainian). Koval, G.V. (2019) The level of intensity of soil tillage and phytosanitary condition of crops of short rotation crop rotation of Right-Bank Forest Steppe of Ukraine. Thesis of Doctoral Dissertation. Uman (in Ukrainian). Koval, G.V., Yeshenko, V.O., Kaliyevsky, M.V. Naklyoka, Y.I. (2018) Influence of the intensity of basic tillage on the Distrubution of pests in the crops of spring crops of five-field rotation. Taurian Scientific Bulletin, 103, 62-69. (in Ukrainian). Krasilovets, Y.G. (2010) Optimization of phytosanitary safety system of cereals. Handbook of the Ukrainian farmer (in Ukrainian) Markov, I.L. (2010) Rape diseases. Agribusiness today, 15, 4-6 (in Ukrainian). Markov, I.L. (2013). Agrotechnical techniques prevent disease. Agribusiness today, 9, 26-28 (in Ukrainian). Omeluta, V.P. (1986) Accounting for pests and diseases of crops. Kiev: Urozhay (in Ukrainian). Pisarenko, V.M., Pisarenko P.V., Pisarenko V.V. (2008) Agroecology. Poltava (in Ukrainian). Polishchuk, S.V. (2014) Features of manifestation of bacterial diseases on soya crops. Proceedings of the Scientific Research Center of the NAAS Institute of Agriculture Kyiv, 3, 108-115 (in Ukrainian). Primak, I.D., Panchenko, O.B., Panchenko, I.A. (2018) Weediness and productivity of short-rotation agrophytocenoses of Right-Bank Forest Steppe of Ukraine under different systems of basic tillage and fertilization of typical black soil. Taurian Scientific Bulletin, 100(2), 39-50. (in Ukrainian). Prymak, I.D. (2019), Mechanical tillage: history, theory, practice. Vinnytsia: TOV “Tvory” (in Ukrainian). Storchous, I.M. (2013) Wheat treatment. Agribusiness today, 9, 37-40 (in Ukrainian). Timofeev, V.P., Perfilyev, N.V., Vyushina, O.Ya. (2016) Phytosanitary state of spring wheat crops depending on the soil tillage system in the conditions of the Northern Trans-Urals. Agriculture, 2, 18-22 (in Ukrainian). Tribel, S.O., Sigaryova, D.D., Secun, M.P. (2001). Methods of testing and application of pesticides. Kiev: The World (in Ukrainian). Tsylyuryk, O.I., Gorobets, A.G., Gorbatenko, A.I., Chaban, V.I., Gasanova, I.I., Sudak, V.M. (2012) The effectiveness of the shallow tillage system against the background of post-harvest residues and mineral fertilizers in rotation. Bulletin of the Institute of Agriculture of the steppe zone of NAAS of Ukraine, 3, 23-28.
L V Yezerkovska - One of the best experts on this subject based on the ideXlab platform.
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effect of soil treatment on pest infestation and crop disease distribution in black soil fields with short rotation crops
Ukrainian Journal of Ecology, 2020Co-Authors: I Prymak, O M Yakovenko, M V Voytovyk, V M Karaulna, L V Yezerkovska, Oleksiy Panchenko, Yu V Fedoruk, I A Pokotylo, Iuliana PanchenkoAbstract:We have established the influence of four tillage systems on pest distribution and development of diseases in cultivated cereals during three-year research (2017-2019) in the field stationary of the Bila Tserkva National Agrarian University, Ukraine (chernozem Grain Sprouting with five-course rotation). The population of turnip moth in winter wheat, spring barley, and soya was the highest under application of disk tillage, the lowest – under moldboard tillage. The moldboard treatment limited while the beardless and disk treatments stimulate the development of beet webworm in the cereal crops. The number of pests in soya, winter wheat, spring barley, and maize was higher under combined soil treatment compared to moldboard. We recorded no significant difference in pests towards tillage systems in sunflower crops. In soya, winter wheat and maize crops, the number of wireworm was significantly higher in molded than in molded cultivation; the opposite pattern was observed in the sunflower field, while for spring barley these values were at the same level. The distribution and development of root rot in cereal crops was higher in comparison with control, but this difference was insignificant in spring barley. The development of powdery mildew in spring barley crops was almost the same for these tillage options. In cereal crops, septoriosis lesions were almost at the same level in case of moldboard and combined tillage. Significant deterioration of phytosanitary condition at beardless and disk tillage resulted in significant reduction of crop rotation productivity in comparison with control. In the fields with combined and disk treatments, the productivity value was almost the same. Keywords: Soil; Cultivation; Crop rotation; Agriculture lands; Diseases; Plant residues; Productivity References Alekhin, V.T. (2013) Problems of control of cereal flies. Plant protection and quarantine, 8, 26-28 (in Ukrainian). Borovskaya, I. Yu., Luchna I. S., Sokol T.V., Babushkina T.V., Nizka I.M. (2013) Cinderella on cereals. The Ukrainian Farmer, 11, 62-64 (in Ukrainian). Fedorenko, A.V., Tribel, S.O. (2016) Bread beetles. Reproduction outbreaks, malpractice, population restriction system. Quarantine and plant protection, 11, 5-8. (in Ukrainian). Gavrilov, S.O. (2015) Warnings about mini-bodies. Farmer, 5, 20 -23. Khilevsky, V.A. (2013), The bread beetle in the North Caucasus. Plant protection and quarantine, 8, 21-23. (in Russia). Klyuchevich, M.M. (2003) The Role of Anthropogenic Factors in Increasing the Resistance of Winter Wheat to Septoria in Agro-Environmental Polesie. GAU Bulletin, 1, 270-278 (in Ukrainian). Klyuchevich, M.M.(2014) Influence of soil cultivation and fertilizers on the development of mycosis of winter triticale in Polissya of Ukraine. Interagency thematic scientific collection. Protection and quarantine of plants. Kyiv, 60, 144-150 (in Ukrainian). Korniychuk, M.S., Vinichuk, T.S., Parminska, L.M. (2014) Protection of field crops from pests and diseases by technologies of organic production. Proceedings of the National Science Center "Institute of Agriculture of NAAS", 1-2, 98-110. (in Ukrainian). Koval, G.V. (2019) The level of intensity of soil tillage and phytosanitary condition of crops of short rotation crop rotation of Right-Bank Forest Steppe of Ukraine. Thesis of Doctoral Dissertation. Uman (in Ukrainian). Koval, G.V., Yeshenko, V.O., Kaliyevsky, M.V. Naklyoka, Y.I. (2018) Influence of the intensity of basic tillage on the Distrubution of pests in the crops of spring crops of five-field rotation. Taurian Scientific Bulletin, 103, 62-69. (in Ukrainian). Krasilovets, Y.G. (2010) Optimization of phytosanitary safety system of cereals. Handbook of the Ukrainian farmer (in Ukrainian) Markov, I.L. (2010) Rape diseases. Agribusiness today, 15, 4-6 (in Ukrainian). Markov, I.L. (2013). Agrotechnical techniques prevent disease. Agribusiness today, 9, 26-28 (in Ukrainian). Omeluta, V.P. (1986) Accounting for pests and diseases of crops. Kiev: Urozhay (in Ukrainian). Pisarenko, V.M., Pisarenko P.V., Pisarenko V.V. (2008) Agroecology. Poltava (in Ukrainian). Polishchuk, S.V. (2014) Features of manifestation of bacterial diseases on soya crops. Proceedings of the Scientific Research Center of the NAAS Institute of Agriculture Kyiv, 3, 108-115 (in Ukrainian). Primak, I.D., Panchenko, O.B., Panchenko, I.A. (2018) Weediness and productivity of short-rotation agrophytocenoses of Right-Bank Forest Steppe of Ukraine under different systems of basic tillage and fertilization of typical black soil. Taurian Scientific Bulletin, 100(2), 39-50. (in Ukrainian). Prymak, I.D. (2019), Mechanical tillage: history, theory, practice. Vinnytsia: TOV “Tvory” (in Ukrainian). Storchous, I.M. (2013) Wheat treatment. Agribusiness today, 9, 37-40 (in Ukrainian). Timofeev, V.P., Perfilyev, N.V., Vyushina, O.Ya. (2016) Phytosanitary state of spring wheat crops depending on the soil tillage system in the conditions of the Northern Trans-Urals. Agriculture, 2, 18-22 (in Ukrainian). Tribel, S.O., Sigaryova, D.D., Secun, M.P. (2001). Methods of testing and application of pesticides. Kiev: The World (in Ukrainian). Tsylyuryk, O.I., Gorobets, A.G., Gorbatenko, A.I., Chaban, V.I., Gasanova, I.I., Sudak, V.M. (2012) The effectiveness of the shallow tillage system against the background of post-harvest residues and mineral fertilizers in rotation. Bulletin of the Institute of Agriculture of the steppe zone of NAAS of Ukraine, 3, 23-28.
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effect of soil treatment on pest infestation and crop disease distribution in black soil fields with short rotation crops
Ukrainian Journal of Ecology, 2020Co-Authors: I Prymak, O M Yakovenko, M V Voytovyk, V M Karaulna, L V Yezerkovska, Oleksiy Panchenko, Yu V Fedoruk, I A Pokotylo, Iuliana PanchenkoAbstract:We have established the influence of four tillage systems on pest distribution and development of diseases in cultivated cereals during three-year research (2017-2019) in the field stationary of the Bila Tserkva National Agrarian University, Ukraine (chernozem Grain Sprouting with five-course rotation). The population of turnip moth in winter wheat, spring barley, and soya was the highest under application of disk tillage, the lowest – under moldboard tillage. The moldboard treatment limited while the beardless and disk treatments stimulate the development of beet webworm in the cereal crops. The number of pests in soya, winter wheat, spring barley, and maize was higher under combined soil treatment compared to moldboard. We recorded no significant difference in pests towards tillage systems in sunflower crops. In soya, winter wheat and maize crops, the number of wireworm was significantly higher in molded than in molded cultivation; the opposite pattern was observed in the sunflower field, while for spring barley these values were at the same level. The distribution and development of root rot in cereal crops was higher in comparison with control, but this difference was insignificant in spring barley. The development of powdery mildew in spring barley crops was almost the same for these tillage options. In cereal crops, septoriosis lesions were almost at the same level in case of moldboard and combined tillage. Significant deterioration of phytosanitary condition at beardless and disk tillage resulted in significant reduction of crop rotation productivity in comparison with control. In the fields with combined and disk treatments, the productivity value was almost the same. Keywords: Soil; Cultivation; Crop rotation; Agriculture lands; Diseases; Plant residues; Productivity References Alekhin, V.T. (2013) Problems of control of cereal flies. Plant protection and quarantine, 8, 26-28 (in Ukrainian). Borovskaya, I. Yu., Luchna I. S., Sokol T.V., Babushkina T.V., Nizka I.M. (2013) Cinderella on cereals. The Ukrainian Farmer, 11, 62-64 (in Ukrainian). Fedorenko, A.V., Tribel, S.O. (2016) Bread beetles. Reproduction outbreaks, malpractice, population restriction system. Quarantine and plant protection, 11, 5-8. (in Ukrainian). Gavrilov, S.O. (2015) Warnings about mini-bodies. Farmer, 5, 20 -23. Khilevsky, V.A. (2013), The bread beetle in the North Caucasus. Plant protection and quarantine, 8, 21-23. (in Russia). Klyuchevich, M.M. (2003) The Role of Anthropogenic Factors in Increasing the Resistance of Winter Wheat to Septoria in Agro-Environmental Polesie. GAU Bulletin, 1, 270-278 (in Ukrainian). Klyuchevich, M.M.(2014) Influence of soil cultivation and fertilizers on the development of mycosis of winter triticale in Polissya of Ukraine. Interagency thematic scientific collection. Protection and quarantine of plants. Kyiv, 60, 144-150 (in Ukrainian). Korniychuk, M.S., Vinichuk, T.S., Parminska, L.M. (2014) Protection of field crops from pests and diseases by technologies of organic production. Proceedings of the National Science Center "Institute of Agriculture of NAAS", 1-2, 98-110. (in Ukrainian). Koval, G.V. (2019) The level of intensity of soil tillage and phytosanitary condition of crops of short rotation crop rotation of Right-Bank Forest Steppe of Ukraine. Thesis of Doctoral Dissertation. Uman (in Ukrainian). Koval, G.V., Yeshenko, V.O., Kaliyevsky, M.V. Naklyoka, Y.I. (2018) Influence of the intensity of basic tillage on the Distrubution of pests in the crops of spring crops of five-field rotation. Taurian Scientific Bulletin, 103, 62-69. (in Ukrainian). Krasilovets, Y.G. (2010) Optimization of phytosanitary safety system of cereals. Handbook of the Ukrainian farmer (in Ukrainian) Markov, I.L. (2010) Rape diseases. Agribusiness today, 15, 4-6 (in Ukrainian). Markov, I.L. (2013). Agrotechnical techniques prevent disease. Agribusiness today, 9, 26-28 (in Ukrainian). Omeluta, V.P. (1986) Accounting for pests and diseases of crops. Kiev: Urozhay (in Ukrainian). Pisarenko, V.M., Pisarenko P.V., Pisarenko V.V. (2008) Agroecology. Poltava (in Ukrainian). Polishchuk, S.V. (2014) Features of manifestation of bacterial diseases on soya crops. Proceedings of the Scientific Research Center of the NAAS Institute of Agriculture Kyiv, 3, 108-115 (in Ukrainian). Primak, I.D., Panchenko, O.B., Panchenko, I.A. (2018) Weediness and productivity of short-rotation agrophytocenoses of Right-Bank Forest Steppe of Ukraine under different systems of basic tillage and fertilization of typical black soil. Taurian Scientific Bulletin, 100(2), 39-50. (in Ukrainian). Prymak, I.D. (2019), Mechanical tillage: history, theory, practice. Vinnytsia: TOV “Tvory” (in Ukrainian). Storchous, I.M. (2013) Wheat treatment. Agribusiness today, 9, 37-40 (in Ukrainian). Timofeev, V.P., Perfilyev, N.V., Vyushina, O.Ya. (2016) Phytosanitary state of spring wheat crops depending on the soil tillage system in the conditions of the Northern Trans-Urals. Agriculture, 2, 18-22 (in Ukrainian). Tribel, S.O., Sigaryova, D.D., Secun, M.P. (2001). Methods of testing and application of pesticides. Kiev: The World (in Ukrainian). Tsylyuryk, O.I., Gorobets, A.G., Gorbatenko, A.I., Chaban, V.I., Gasanova, I.I., Sudak, V.M. (2012) The effectiveness of the shallow tillage system against the background of post-harvest residues and mineral fertilizers in rotation. Bulletin of the Institute of Agriculture of the steppe zone of NAAS of Ukraine, 3, 23-28.
